Theoretical Study of Microwires with an Inhomogeneous Magnetic Structure Using Magnetoimpedance Tomography

Theoretical Study of Microwires with an Inhomogeneous Magnetic Structure Using Magnetoimpedance Tomography

The recently proposed magnetoimpedance tomography method is based on the analysis of the frequency dependences of the impedance measured at different external magnetic fields. The method allows one to analyze the distribution of magnetic properties over the cross-section of the ferromagnetic conduct...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Vol. 24; no. 11; p. 3669
Main Authors: Buznikov, Nikita A, Kurlyandskaya, Galina V
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 05-06-2024
MDPI
Subjects:
amorphous microwires
Anisotropy
Biosensors
Dependence
Electromagnetism
Ferromagnetism
magnetic anisotropy
Magnetic fields
Magnetic properties
magnetic structure
magnetoimpedance
modeling
Permeability
Plating
Scanning electron microscopy
Sensors
Tomography
Wire
magnetic anisotropy
modeling
magnetic structure
amorphous microwires
permeability
magnetoimpedance
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Summary:The recently proposed magnetoimpedance tomography method is based on the analysis of the frequency dependences of the impedance measured at different external magnetic fields. The method allows one to analyze the distribution of magnetic properties over the cross-section of the ferromagnetic conductor. Here, we describe the example of theoretical study of the magnetoimpedance effect in an amorphous microwire with inhomogeneous magnetic structure. In the framework of the proposed model, it is assumed that the microwire cross-section consists of several regions with different features of the effective anisotropy. The distribution of the electromagnetic fields and the microwire impedance are found by an analytical solution of Maxwell equations in the particular regions. The field and frequency dependences of the microwire impedance are analyzed taking into account the frequency dependence of the permeability values in the considered regions. Although the calculations are given for the case of amorphous microwires, the obtained results can be useful for the development of the magnetoimpedance tomography method adaptation for different types of ferromagnetic conductors.
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ISSN:1424-8220
1424-8220
DOI:10.3390/s24113669